JP5230674B2 - Exhaust gas treatment equipment for work machines - Google Patents

Abstract

An exhaust gas treatment apparatus for a working machine is provided which can reliably prevent a specific process that raises the exhaust temperature of an exhaust gas treatment section from being carried out during switching operation of a directional control valve. An exhaust gas treatment apparatus for a working machine includes: a directional control valve 14 that controls the flow of pressure oil supplied to an actuator 4a that is actuated upon supply of the pressure oil from a hydraulic pump 8; a pilot pump 16 that supplies pressure oil to an operating device 19 operated to switch the directional control valve 14; an open/close valve 13 arranged downstream of the directional control valve 14; a control valve 15 that controls the open/close valve 13; a lock valve 17 arranged between the pilot pump 16 and the operating device 19; a detecting section 12 that detects when a specific process that raises the exhaust temperature of an exhaust gas treatment section 11 becomes necessary, and outputs the corresponding detection signal; a controller 18 that controls the control valve 15; and a pipe 31 for performing a process of setting the open/close valve 13 to an open position 13a in accordance with the pilot pressure oil supplied from the pilot pump 16.

Description

  The present invention relates to an exhaust gas treatment apparatus for a work machine such as a hydraulic excavator capable of performing a specific process in an exhaust gas treatment means by increasing a hydraulic load of a hydraulically driven work machine and increasing an engine output. About.

  FIG. 5 is a circuit diagram showing an example of an exhaust gas treatment device of a conventional work machine.

  2. Description of the Related Art Conventionally, work machines such as hydraulic excavators have been provided with an exhaust gas processing device that processes exhaust gas discharged from an engine and discharges it to the outside. For example, as shown in FIG. 5, the exhaust gas processing apparatus includes a hydraulic pump 8 driven by an engine 5a, an actuator 4a that is operated by pressure oil supplied from the hydraulic pump 8, and a pressure supplied to the actuator 4a. A directional control valve 14 for controlling the flow of oil and an operating device 19 having an operating lever 19a for switching the directional control valve 14 are provided.

  Further, the exhaust gas treatment device includes a pilot pump 16 that supplies pressure oil to the operation device 19, an on-off valve 13 that is disposed downstream of the direction control valve 14 and controls the opening and closing of the flow path connected to the tank 25, Arranged between the on-off valve 13 and the pilot pump 16, disposed between the control valve 15 for controlling the on-off valve 13 to the open position 13 a or the closed position 13 b, the pilot pump 16 and the operating device 19, and the actuator 4 a And a lock valve 17 that can be switched to a lock release position 17b that enables the actuator 4a to operate. The hydraulic pump 8, the pilot pump 16, and the lock valve 17 are each connected to a tank 25. In addition, a relief valve 20 is provided in the pipe 26 connecting the pilot pump 16 and the lock valve 17, and this relief valve 20 is piloted when the pilot pressure oil supplied from the pilot pump 16 becomes excessive. Pressure oil is allowed to flow out into the tank 25.

  The exhaust gas processing device is attached to the exhaust port of the engine 5a, and the exhaust gas processing means 11 for processing the exhaust gas discharged from the engine 5a, and the specific processing for increasing the exhaust temperature of the exhaust gas processing means 11 And detecting means 12 for outputting a signal for setting the control valve 15 to the open position 15b, and a control device 18 for controlling the control valve 15.

  Specifically, the exhaust gas treatment means 11 includes a filter (not shown) having an oxidation catalyst such as platinum inside, and captures unburned substances such as hydrocarbons and carbon monoxide present in the exhaust gas by the filter. By collecting and oxidizing, unburned substances are changed into harmless substances such as water and carbon dioxide and discharged. Here, the oxidation catalyst such as platinum provided in the filter does not exhibit an effective catalytic effect unless the temperature exceeds a predetermined temperature specific to the oxidation catalyst. Therefore, the temperature of the exhaust gas flowing into the exhaust gas processing means 11 is not limited to the specific temperature. If the temperature is lower than the predetermined temperature, the collected unburned material is not oxidized but is deposited on the filter. As a result, the exhaust gas exhaust efficiency in the exhaust gas processing means 11 deteriorates, and the exhaust resistance of the engine 5a increases. In order to prevent this, conventionally, a specific process for increasing the temperature of the exhaust gas discharged from the engine 5a to increase the exhaust temperature of the exhaust gas processing means 11 has been performed. The detection means 12 includes an exhaust pressure sensor that detects the pressure of the exhaust gas flowing into the exhaust gas processing means 11 and a temperature sensor that detects the temperature of the exhaust gas. Then, the detection means 12 detects that the pressure upstream of the oxidation catalyst has increased with the exhaust pressure sensor, and outputs a signal indicating the start of the above-described specific processing when the exhaust temperature is low.

  As one of the prior arts of an exhaust gas treatment device for a working machine that performs such a specific treatment, the detection means 12 is an exhaust gas purification device connected to the exhaust port of the engine 5a, that is, the inlet of the exhaust gas treatment means 11. The control device 18 is discharged from the hydraulic pump 8 when the exhaust resistance measured by the detecting means 12 exceeds a predetermined value. The pressure oil discharge amount and discharge pressure are increased at the same time, that is, the output of the engine 5a is increased, and the exhaust gas temperature of the engine 5a is normally exhibited by the exhaust gas processing means 11 There is known a hydraulic working machine having a function of raising the temperature to a temperature higher than possible (see, for example, Patent Document 1).

  In the hydraulic working machine disclosed in Patent Document 1, a neutral detection switch 19b for detecting the neutral state of the direction control valve 14 is attached to the operation lever 19a of the operation device 19 as shown in FIG. When the circuit of the switch 19b is closed, the neutral state of the directional control valve 14 is electrically detected, and only when the directional control valve 14 is in the neutral state, the specific process is performed so that the actuator 4a Preventing the operation not to be performed.

  That is, as shown in FIG. 5, the control device 18 receives a signal indicating the neutral state of the directional control valve 14 by the neutral detection switch 19b, and the exhaust resistance measured by the detection means 12 becomes equal to or greater than a predetermined value. When this happens, the control device 18 switches the control valve 15 to the open position 15b of the upper stage, and supplies the pilot pressure oil of the pilot pump 16 to the control unit on the right side of the on-off valve 13 via the control valve 15. Thereby, the on-off valve 13 is switched to the closed position 13b which is the right position. Then, the pipe line connected to the tank 25 is closed, and the discharge pressure of the pressure oil discharged from the hydraulic pump 8 increases simultaneously. Accordingly, it is possible to prevent the worker from supplying an increased amount of pressure oil from the hydraulic pump 8 to the actuator 4a due to a specific process during the operation of the operation lever 19a of the operation device 19. That is, the operation of the actuator 4a not intended by the operator can be prevented, and the work can be performed safely.

Japanese Patent No. 3073380

  However, in the conventional hydraulic working machine disclosed in Patent Document 1 described above, when the neutral detection switch 19b that directly detects the movement of the operating lever 19a of the operating device 19 fails electrically, for example, the operation of the operating device 19 is performed. A signal indicating the neutral state of the direction control valve 14 from the neutral detection switch 19 when a malfunction such as closing of the circuit of the neutral detection switch 19b occurs despite the switching operation of the direction control valve 14 by the lever 19a. May be output to the control device 18. In this case, the control device 18 switches the control valve 15 to the open position 15b in the upper position when the exhaust resistance measured by the detection means 12 becomes equal to or higher than a predetermined value, and the pilot pressure oil of the pilot pump 16 is supplied. The control valve 15 is supplied to the control unit on the right side of the on-off valve 13, and the on-off valve 13 is switched to the closed position 13b which is the right position, so that the discharge amount and the discharge pressure of the pressure oil discharged from the hydraulic pump 8 are simultaneously provided. The above-mentioned specific processing to raise is performed. As a result, excessive pressure oil is supplied to the actuator 4a during the switching operation of the direction control valve 14 by the operating lever 19a of the operating device 19, so that the actuator 4a is accelerated and an operation not intended by the operator is performed. It will be.

  The present invention has been made based on the actual situation of the prior art as described above, and its purpose is to reliably prevent the specific processing for raising the exhaust temperature of the exhaust gas processing means during the switching operation of the directional control valve. An object of the present invention is to provide an exhaust gas treatment device for a work machine that can be used.

In order to achieve the above object, an exhaust gas treatment device for a work machine according to the present invention includes a hydraulic pump driven by an engine, an actuator that is operated by supplying pressure oil from the hydraulic pump, and is supplied to the actuator. A directional control valve for controlling the flow of pressure oil, an operating device having an operating lever for switching the directional control valve, a pilot pump for supplying pressure oil to the operating device, and a downstream of the directional control valve. And an open / close valve connected to the tank and having a neutral position in the open position, a control valve disposed between the open / close valve and the pilot pump, and controlling the open / close valve to an open position or a closed position; A lock valve disposed between a pilot pump and the operating device, which is switchable to a lock position that keeps the actuator inoperable, and discharged from the engine Detecting exhaust gas processing means for processing the exhaust gas, and detecting that a specific process for raising the exhaust temperature of the exhaust gas processing means is necessary and outputting a signal for opening the control valve And a control device for controlling the control valve, and when the control valve is switched to the open position, pilot pressure oil from the pilot pump is supplied to the on-off valve via the control valve, The on-off valve is configured to be switched from an open position, which is a neutral position, to a closed position, and the specific processing in the exhaust gas processing means is performed by increasing the output of the engine while keeping the on-off valve in the closed position. In an exhaust gas treatment device for a work machine capable of performing the opening operation, the opening / closing valve is opened in accordance with pilot pressure oil supplied from the pilot pump. It includes a location processing unit, the open position setting section includes: the pilot pump, the lock valve that is kept in an unlock position for supplying the pilot pressure oil from the pilot pump to the operating device, one end of the lock valve And a pipe for guiding the pilot pressure oil that is connected between the control device and the operating device and that has the on-off valve as the open position .

  In the present invention configured as described above, when the lock valve is kept at the lock position, the pilot pressure oil is not supplied to the operating device, and accordingly, the process of setting the open / close valve to the open position by the open position processing unit is not performed. Not done. Further, when the lock valve is kept in the lock position and the actuator cannot be operated in this way, it is necessary to start a specific process for increasing the exhaust temperature of the exhaust gas processing means by the detection means. When the signal shown is output, the control valve is switched to the open position. Accordingly, pilot pressure oil from the pilot pump is applied to the control unit of the on / off valve via the control valve, and the on / off valve is switched from the open position, which is the neutral position, to the closed position. And the flow of the pressure oil to a tank is blocked | prevented and the load of a hydraulic pump rises. Along with this, the output of the engine is increased, and the exhaust gas processing means performs a specific process for raising the exhaust temperature.

  On the other hand, in order to operate the actuator, the lock valve is unlocked in advance, and pilot pressure oil is supplied from the pilot pump to the operating device via the lock valve. Then, the pilot pressure oil accompanying the operation of the operation lever of the operation device is applied to the control unit of the direction control valve, and the direction control valve is switched from the neutral position. In response to this, the pressure oil discharged from the hydraulic pump is supplied to the actuator via the direction control valve, and the actuator is activated.

Therefore, when the lock valve is unlocked in this way and the operation lever of the operation device can be operated, it is included in the open position processing unit in which one end is connected between the lock valve and the operation device. Since the pilot pressure oil of the pilot pump is guided to the control unit of the on-off valve by the pipe to be operated , the open position processing unit according to the pilot pressure oil supplied from the pilot pump without being directly related to the movement of the operation lever of the operation device, The process which makes an on-off valve an open position can be performed. Therefore, even if a signal indicating that it is necessary to start a specific process for raising the exhaust gas temperature of the exhaust gas processing means by the detection means, an excessive load increase of the hydraulic pump does not occur. As a result, the above-described specific processing for increasing the engine output and increasing the exhaust temperature is not started. As a result, it is possible to reliably prevent the specific processing for raising the exhaust gas temperature of the exhaust gas processing means during the switching operation of the direction control valve.

The exhaust gas treatment device for a work machine according to the present invention includes a hydraulic pump driven by an engine, an actuator that is operated by pressure oil supplied from the hydraulic pump, and a flow of pressure oil supplied to the actuator. A directional control valve to be controlled, an operating device having an operating lever for switching the directional control valve, a pilot pump for supplying pressure oil to the operating device, a downstream of the directional control valve, and a tank. An on-off valve connected and having a neutral position in an open position; a control valve disposed between the on-off valve and the pilot pump; and controlling the on-off valve to an open position or a closed position; and the pilot pump and the operation A lock valve that is disposed between the engine and the switch for switching to a lock position that keeps the actuator inoperable, and exhaust gas discharged from the engine. An exhaust gas processing means for detecting, a detection means for detecting that a specific processing for raising the exhaust temperature of the exhaust gas processing means is necessary and outputting a signal for opening the control valve, and the control A control device for controlling the valve, and when the control valve is switched to the open position, pilot pressure oil from the pilot pump is supplied to the on-off valve via the control valve, and the on-off valve is in the neutral position. A work machine capable of performing the specific processing in the exhaust gas processing means by switching from the open position to the closed position and maintaining the on-off valve in the closed position to increase the output of the engine. in the exhaust gas treatment apparatus, comprising an open position setting section that performs processing for the on-off valve to the open position in response to the pilot pressure oil supplied from the pilot pump The open position setting section includes: the pilot pump, the lock valve that is kept in an unlock position for supplying the pilot pressure oil from the pilot pump to the operating device, with the operation of the operating lever of the operating device A pressure sensor for detecting the pressure of the pilot pressure oil supplied by the pressure sensor, and the control device for controlling the control valve to be kept in a closed position in response to detection of the pressure of the pilot pressure oil by the pressure sensor. It is characterized by.

  In the present invention configured as described above, when the lock valve is held at the lock position, the pressure of the pilot pressure oil supplied along with the operation of the operation lever of the operation device is not detected by the pressure sensor. In this state, the actuator cannot be operated. In this state, when a signal indicating that the detection unit needs to start a specific process for raising the exhaust gas temperature of the exhaust gas processing unit is output, the control is performed. The valve is switched to the open position. Accordingly, pilot pressure oil from the pilot pump is applied to the control unit of the on / off valve via the control valve, and the on / off valve is switched from the open position, which is the neutral position, to the closed position. And the flow of the pressure oil to a tank is blocked | prevented and the load of a hydraulic pump rises. Along with this, the output of the engine is increased, and the exhaust gas processing means performs a specific process for raising the exhaust temperature.

  On the other hand, in order to operate the actuator, the lock valve is unlocked in advance, and pilot pressure oil is supplied from the pilot pump to the operating device via the lock valve. In response to this, the pilot pressure oil accompanying the operation of the operating device is applied to the control unit of the direction control valve, and the direction control valve is switched from the neutral position. At this time, in the open position processing unit, the pressure sensor detects the pressure of the pilot pressure oil accompanying the operation of the operating device, and outputs the detection signal to the control device. The control device that has received this signal controls to keep the control valve in the closed position. Thereby, pilot pressure oil is not supplied from the pilot pump to the control unit of the on-off valve, and the on-off valve is not switched from the open position to the closed position during operation of the actuator. In this way, the open position processing unit does not directly relate to the movement of the operating lever of the operating device, but the detection signal of the pressure of the pilot pressure oil supplied in accordance with the operation of the operating lever of the operating device obtained from the pressure sensor. Accordingly, since the control device can perform the process of opening the on-off valve, it is possible to prevent excessive pressure oil from being supplied to the actuator from the hydraulic pump by the above-mentioned specific process during the switching operation of the direction control valve. The reliability in the operation of the operation lever of the operation device can be improved.

  The exhaust gas processing device for a work machine according to the present invention performs a specific process in the exhaust gas processing means by maintaining the on-off valve in the closed position and increasing the output of the engine when the actuator cannot be operated. And an open position processing unit that performs a process of opening the on-off valve in accordance with the pilot pressure oil supplied from the pilot pump. Therefore, when the lock valve is unlocked in advance and the operation lever of the operation device can be operated, the open position processing unit does not directly move the operation lever of the operation device through the lock valve from the pilot pump. Depending on the pilot pressure oil supplied in this way, it is possible to perform the process of opening the on-off valve, so even if the detection means outputs a signal indicating that the start of the specific process is necessary, The flow of pressure oil to the tank is not hindered, and an excessive load increase of the hydraulic pump is not caused. As a result, it is possible to reliably prevent the specific processing of raising the exhaust gas temperature of the exhaust gas processing means by increasing the engine output during the switching operation of the direction control valve, and excessive pressure oil is applied to the actuator. Therefore, it is possible to prevent the operation of the actuator not intended by the operator and to improve the safety in the operation work of the work machine as compared with the conventional case.

1 is a side view showing a hydraulic excavator cited as an example of a work machine provided with a first embodiment of an exhaust gas treatment device for a work machine according to the present invention. It is a circuit diagram which shows the structure of 1st Embodiment of this invention. It is a circuit diagram which shows the structure of 2nd Embodiment of this invention. It is a circuit diagram which shows the structure of 3rd Embodiment of this invention. It is a circuit diagram which shows an example of the exhaust-gas processing apparatus of the conventional working machine.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing the exhaust-gas processing apparatus of the working machine which concerns on this invention is demonstrated based on figures.

[First Embodiment]
A first embodiment of an exhaust device for a working machine according to the present invention is provided in a hydraulic excavator 1 as shown in FIG. 1, for example. The hydraulic excavator 1 includes a traveling body 2, a revolving body 3 that is disposed above the traveling body 2 and has a revolving frame 3 a, and a front work machine that is attached to the front of the revolving body 3 and rotates in the vertical direction. 4 is provided. The front work machine 4 includes actuators 4a, 4b, and 4c that control a boom, an arm, and a bucket, respectively. The revolving unit 3 is disposed between the cab 7 located at the front, the counterweight 6 disposed at the rear, and between the cab 7 and the counterweight 6, and an engine room 5 having an engine 5 a described later therein. And.

  As shown in FIG. 2, the first embodiment of the present invention is a hydraulic pump 8 driven by an engine 5 a installed in the engine room 5, and the above-described hydraulic pump 8 operates by supplying pressure oil from the hydraulic pump 8. Actuator 4a, a directional control valve 14 for controlling the flow of pressure oil supplied to the actuator 4a, and an operating device 19 having an operating lever 19a for switching the directional control valve 14. For simplicity of explanation, only the actuator 4a is shown among the actuators 4a, 4b, and 4c, and the other actuators 4b and 4c are not shown.

  The first embodiment of the present invention is disposed downstream of the pilot pump 16 for supplying pressure oil to the operating device 19 and the directional control valve 14 and connected to the tank 25. For example, the neutral position is set by a spring 13c. Is disposed between the on-off valve 13 and the pilot pump 16, the control valve 15 for controlling the on-off valve 13 to the open position 13 a or the closed position 13 b, and the pilot pump 16. A lock valve 17 disposed between the device 19 and the lock lever 17a for operating the actuator 4a to be disabled by operating the lock lever 17a, and a lock valve 17 switchable to a lock release position 17b for enabling the actuator 4a. I have. The hydraulic pump 8, the pilot pump 16, and the lock valve 17 are connected to the tank 25. In addition, a relief valve 20 is provided in the pipe 26 connecting the pilot pump 16 and the lock valve 17, and this relief valve 20 is piloted when the pilot pressure oil supplied from the pilot pump 16 becomes excessive. Pressure oil is allowed to flow out into the tank 25.

  Further, according to the first embodiment of the present invention, the exhaust gas processing means 11 for processing the exhaust gas discharged from the engine 5a and the special processing for increasing the exhaust temperature of the exhaust gas processing means 11 are necessary. A detection means 12 for detecting and outputting a signal for opening the control valve 15 and a control device 18 for controlling the control valve 15 are provided, and the output of the engine 5a is maintained by keeping the on-off valve 13 at the closed position 13b. By raising, it is possible to carry out a specific process in the exhaust gas processing means 11.

  And 1st Embodiment of this invention is provided with the open position process part which performs the process which makes the on-off valve 13 the open position 13a according to the pilot pressure oil supplied from the pilot pump 16. FIG. The open position processing unit includes a pilot pump 16, a lock valve 17 maintained at an unlock position 17 b for supplying pilot pressure oil from the pilot pump 16 to the operating device 19, and one end of the lock valve 17 and the operating device 19. And a pipe 31 whose other end is connected to the control unit on the left side of the on-off valve 13 so that the on-off valve 13 is in the open position 13a by guiding the pilot pressure oil flowing between them. . In the first embodiment of the present invention, the same reference numerals are assigned to the portions corresponding to the exhaust gas treatment device of the conventional work machine shown in FIG.

  In the first embodiment of the present invention configured as described above, when the lock valve 17 is kept at the lock position 17c, the pilot pressure oil is not supplied to the operating device 19, so that the pilot pressure is supplied from the pipe 31 in the open position processing section. Oil is not guided. At this time, the on-off valve 13 is maintained in the open position 13a of the neutral position by the force of the spring 13c. In addition, when the lock valve 17 is kept at the lock position 17c and the actuator 4a cannot be operated in this way, the start of a specific process for raising the exhaust temperature of the exhaust gas processing means 11 by the detection means 12 is started. When a signal indicating that it is necessary is output, the control valve 15 is switched to the open position 15b of the upper position by a signal output from the control device 18. As a result, pilot pressure oil from the pilot pump 16 is applied to the control unit on the right side of the on-off valve 13 via the control valve 15, and the on-off valve 13 is moved from the open position 13a which is a neutral position against the force of the spring 13c. It is switched to the closed position 13b. And the flow of the pressure oil to the tank 25 is blocked | prevented, and the load of the hydraulic pump 8 rises. Along with this, the output of the engine 5a is increased, and the exhaust gas processing means 11 performs a specific process for increasing the exhaust temperature.

  On the other hand, in order to operate the actuator 4a, the lock valve 17 is unlocked in advance, that is, the lock valve 17 is switched from the lock position 17c to the lock release position 17b by operating the lock lever 17a. The pilot pressure oil is supplied to the operating device 19 through the control device 19. Then, the pilot pressure oil accompanying the operation of the operation lever 19a of the operating device 19 is given to the control unit of the direction control valve 14, and the direction control valve 14 is switched from the neutral position. In response to this, the pressure oil discharged from the hydraulic pump 8 is supplied to the actuator 4a via the direction control valve 14, and the actuator 4a operates.

  Accordingly, when the lock valve 17 is unlocked in this manner and the operation lever 19a of the operation device 19 can be operated, a pipe having one end connected between the lock valve 17 and the operation device 19 is connected. By guiding the pilot pressure oil from 31 to the control unit on the left side of the on-off valve 13, the on-off valve 13 according to the pilot pressure oil supplied from the pilot pump 16 without being directly related to the movement of the operation lever 19 a of the operation device 19. To the open position 13a. In such a state, the control device 18 receives a signal indicating the start time of a specific process for raising the exhaust gas temperature of the exhaust gas processing means 11 from the detection means 12, and closes the control valve 15 accordingly. When the control for switching from the position 15 a to the open position 15 b is performed, the pilot pressure oil of the pilot pump 16 is supplied to the control unit on the right side of the on-off valve 13 through the control valve 15. At this time, the pilot pressure oil of the same pilot pump 16 is led to the left and right control units of the on-off valve 13. Therefore, the on-off valve 13 is maintained in the neutral position by the force of the spring 13c. Therefore, an excessive load increase of the hydraulic pump 8 does not occur, and accordingly, the above-described specific processing for increasing the output of the engine 5a and increasing the exhaust temperature is not started. As a result, it is possible to reliably prevent the specific processing for raising the exhaust temperature of the exhaust gas processing means 11 during the switching operation of the directional control valve 14, and excessive pressure oil is not supplied to the actuator 4a. The operation of the actuator 4a not intended by the operator can be prevented, and the safety in the operation work of the hydraulic excavator 1 can be improved.

  Further, in the first embodiment of the present invention, one end of the pipe 31 included in the open position processing unit is connected between the lock valve 17 and the operating device 19 and guides the pilot pressure oil flowing between them to open the on-off valve. The other end of the pipe 31 is connected to the control unit on the left side of the on-off valve 13 so that 13 is in the open position 13a, and when the lock valve 17 is in the unlock position 17b, that is, the actuator 4a can be operated. The on-off valve 13 can be kept at the open position 13a only with such a simple configuration. Therefore, since it is only necessary to provide the pipe 31 that connects between the lock valve 17 and the operating device 19 to the control unit of the on-off valve 13, the assembly cost in the open position processing unit can be suppressed.

[Second Embodiment]
FIG. 3 is a circuit diagram showing a configuration of the second embodiment of the present invention.

  As shown in FIG. 3, in the second embodiment of the present invention, the open position processing unit detects the pressure of the pilot pressure oil that has passed through the lock valve 17, and the pressure of the pilot pressure oil of the pressure sensor 21. And a control device 18 for controlling the control valve 15 to be kept at the closed position 15a in accordance with the detection. When the pilot pressure oil is not detected by the pressure sensor 21, the control device 18 keeps the control valve 15 at the closed position 15a at the lower position in a state where no signal is output from the detection means 12, and the signal is output from the detection means 12 Then, control which switches the control valve 15 to the open position 15b of an upper stage position is performed. Further, when the pilot pressure oil is detected by the pressure sensor 21, the control device 18 performs control to keep the control valve 15 at the closed position 15a of the lower position regardless of whether a signal from the detection means 12 is output. . Other configurations are the same as those of the first embodiment.

  In the second embodiment of the present invention configured as described above, when the lock valve 17 is maintained at the lock position 17c, the pressure of the pilot pressure oil that has passed through the lock valve 17 is not detected by the pressure sensor 21. . In this state, similarly to the first embodiment, the actuator 4a cannot be operated. In this state, it is necessary to start a specific process for increasing the exhaust temperature of the exhaust gas processing means 11 by the detection means 12. Is output from the pressure sensor 21, the control device 18 performs control to switch the control valve 15 from the closed position 15a to the open position 15b. As a result, pilot pressure oil from the pilot pump 16 is applied to the control unit on the right side of the on-off valve 13 via the control valve 15, and the on-off valve 13 is switched from the open position 13a, which is a neutral position, to the closed position 13b. And the flow of the pressure oil to the tank 25 is blocked | prevented, and the load of the hydraulic pump 8 rises. Along with this, the output of the engine 5a is increased, and the exhaust gas processing means 11 performs a specific process for increasing the exhaust temperature.

  On the other hand, in order to operate the actuator 4a, the lock valve 17 is unlocked in advance, that is, the lock valve 17 is switched from the lock position 17c to the lock release position 17b by operating the lock lever 17a. The pilot pressure oil is supplied to the operating device 19 through the control device 19. In response to this, pilot pressure oil accompanying the operation of the operating lever 19a of the operating device 19 is applied to the control unit of the directional control valve 14, and the directional control valve 14 is switched from the neutral position. At this time, in the open position processing unit, the pressure sensor 21 detects the pressure of the pilot pressure oil that passes through the lock valve 17 and is supplied to the operating device 19, and outputs a detection signal to the control device 18. Receiving this signal, the control device 18 closes the control valve 15 in the closed position 15a regardless of whether or not a signal indicating the start of a specific process for raising the exhaust gas temperature of the exhaust gas processing means 11 is received from the detection means 12. Control to keep on. Thereby, pilot pressure oil is not supplied from the pilot pump 16 to the control unit on the right side of the on-off valve 13, and the on-off valve 13 is not switched from the open position 13a to the closed position 13b during operation of the actuator 4a. Therefore, the open position processing unit is not directly related to the movement of the operation lever 19a of the operation device 19, but by the control device 18 according to the detection signal of the pressure of the pilot pressure oil that has passed through the lock valve 17 obtained from the pressure sensor 21. Since it is possible to perform the process of setting the on-off valve 13 to the open position 13a, it is possible to prevent excessive hydraulic oil from being supplied from the hydraulic pump 8 to the actuator 4a due to the above-described specific process during the switching operation of the direction control valve 14. The reliability in the operation of the operation lever 19a of the operation device 19 can be improved.

[Third Embodiment]
FIG. 4 is a circuit diagram showing a configuration of the third embodiment of the present invention.

  As shown in FIG. 4, in the third embodiment of the present invention, the open position processing unit detects a pressure of pilot pressure oil supplied in accordance with the operation of the operation lever 19 a of the operation device 19, The pressure sensor 23 includes a control device 18 that controls the control valve 15 so as to maintain the closed position 15a in accordance with the detection of the pressure of the pilot pressure oil. Specifically, in the third embodiment of the present invention, the operating device 19 and the direction control valve 14 are connected, a pipe 32a for guiding pilot pressure oil with the direction control valve 14 at the left position, the operating device 19 and the direction. A pipe 32b for connecting the control valve 14 and guiding the pilot pressure oil with the direction control valve 14 in the right position, and the pressure of the pilot pressure oil installed between the pipes 32a and 32b and flowing through the pipes 32a and 32b And a shuttle valve 22 for detecting the higher pressure. The pressure sensor 23 described above detects the pressure of the pilot pressure oil selected by the shuttle valve 22 and outputs this detection signal to the control device 18. Other configurations are the same as those of the second embodiment.

  In the third embodiment of the present invention configured as described above, when the lock valve 17 is kept at the lock position 17c, the pressure sensor 23 connected to the shuttle valve 22 causes the operation lever 19a of the operation device 19 to be operated. The pressure of the pilot pressure oil supplied in this way is not detected. In this state, the actuator 4a cannot be operated. In this state, the detection means 12 outputs a signal indicating that it is necessary to start a specific process for increasing the exhaust gas temperature of the exhaust gas processing means 11. In some cases, the control device 18 performs control to switch the control valve 15 from the closed position 15a to the open position 15b because the detection signal of the pressure of the pilot pressure oil is not output from the pressure sensor 23. As a result, pilot pressure oil from the pilot pump 16 is applied to the control unit on the right side of the on-off valve 13 via the control valve 15, and the on-off valve 13 is switched from the open position 13a, which is a neutral position, to the closed position 13b. And the flow of the pressure oil to the tank 25 is blocked | prevented, and the load of the hydraulic pump 8 rises. Along with this, the output of the engine 5a is increased, and the exhaust gas processing means 11 performs a specific process for increasing the exhaust temperature.

  On the other hand, in order to operate the actuator 4a, the lock valve 17 is unlocked in advance, that is, the lock valve 17 is switched from the lock position 17c to the lock release position 17b by operating the lock lever 17a. The pilot pressure oil is supplied to the operating device 19 through the control device 19. Accordingly, when the operation lever 19a of the operation device 19 is operated, the pilot pressure oil is supplied to the control unit of the direction control valve 14 via either the pipe 32a or 32b, and the direction control valve 14 is switched from the neutral position. It is done. At this time, in the open position processing unit, the pressure sensor 23 detects the pressure of the pilot pressure oil accompanying the operation of the operation lever 19a of the operation device 19, that is, the pressure sensor 23 connected to the shuttle valve 22 connects the pipes 32a and 32b. The higher pressure of the circulating pilot pressure oil pressure is detected, and the detection signal is output to the control device 18. Upon receiving this signal, the control device 18 controls the control valve 15 so as to keep it at the closed position 15a. Thereby, pilot pressure oil is not supplied from the pilot pump 16 to the control unit on the right side of the on-off valve 13, and the on-off valve 13 is not switched from the open position 13a to the closed position 13b during operation of the actuator 4a. In this way, the open position processing unit does not directly relate to the movement of the operating lever 19a of the operating device 19, but the pilot pressure oil supplied in accordance with the operation of the operating lever 19a of the operating device 19 obtained from the pressure sensor 23. Since the control device 18 can perform the process of setting the on-off valve 13 to the open position 13a in accordance with the pressure detection signal, the above-described specific process is performed during the switching operation of the direction control valve 14 as in the second embodiment. It is possible to prevent excessive pressure oil from being supplied from the hydraulic pump 8 to the actuator 4a, and it is possible to improve the reliability in operation of the operation lever 19a of the operation device 19.

  In the present embodiment, an example of exhaust gas purification using an oxidation catalyst is shown as an exhaust gas treatment device. However, the present invention is not limited to this, and particulate matter (PM) in exhaust gas is captured. The present invention can also be applied to regeneration control of a diesel particulate filter (Diesel Particulate Filter (DPF)) to be removed.

1 Excavator (work machine)
DESCRIPTION OF SYMBOLS 2 Traveling body 3 Revolving body 4 Front work machine 4a, 4b, 4c Actuator 5a Engine 8 Hydraulic pump 10 Exhaust port 11 Exhaust gas processing means 12 Detection means 13 On-off valve 13c Spring 14 Direction control valve 15 Control valve 16 Pilot pump 17 Lock valve 17a Lock lever 18 Control device 19 Operation device 19a Operation lever 21 Pressure sensor 22 Shuttle valve 23 Pressure sensor 26 Piping 31 Piping 32a Piping 32b Piping

Claims (2)

A hydraulic pump driven by an engine, an actuator that operates when pressure oil is supplied from the hydraulic pump, a direction control valve that controls a flow of pressure oil supplied to the actuator, and a switching operation of the direction control valve An operating device having an operating lever, a pilot pump for supplying pressure oil to the operating device, an on-off valve disposed downstream of the directional control valve, connected to a tank, and having a neutral position opened; Disposed between the on-off valve and the pilot pump, disposed between the pilot pump and the operating device, and a control valve for controlling the on-off valve to an open position or a closed position, thereby disabling the operation of the actuator. A lock valve which can be switched to a lock position to be maintained, an exhaust gas processing means for processing exhaust gas discharged from the engine, and an exhaust gas processing means Detects that the specific process that raises the gas temperature is required, a detecting means for outputting a signal for the control valve in the open position, and a control unit for controlling the control valve,
When the control valve is switched to the open position, pilot pressure oil from the pilot pump is applied to the open / close valve via the control valve, and the open / close valve is switched from the open position, which is a neutral position, to the closed position. In the exhaust gas processing apparatus of a working machine capable of performing the specific processing in the exhaust gas processing means by increasing the output of the engine while maintaining the on-off valve in a closed position,
An open position processing unit for performing processing for opening the on-off valve according to pilot pressure oil supplied from the pilot pump ;
The open position processing unit includes the pilot pump, the lock valve maintained at a lock release position for supplying the pilot pressure oil from the pilot pump to the operation device, and one end of the lock valve and the operation device. An exhaust gas processing apparatus for a working machine, comprising: a pipe connected between the pipes for guiding the pilot pressure oil with the open / close valve in the open position . A hydraulic pump driven by an engine, an actuator that operates when pressure oil is supplied from the hydraulic pump, a direction control valve that controls a flow of pressure oil supplied to the actuator, and a switching operation of the direction control valve An operating device having an operating lever, a pilot pump for supplying pressure oil to the operating device, an on-off valve disposed downstream of the directional control valve, connected to a tank, and having a neutral position opened; Disposed between the on-off valve and the pilot pump, disposed between the pilot pump and the operating device, and a control valve for controlling the on-off valve to an open position or a closed position, thereby disabling the operation of the actuator. A lock valve which can be switched to a lock position to be maintained, an exhaust gas processing means for processing exhaust gas discharged from the engine, and an exhaust gas processing means Detects that the specific process that raises the gas temperature is required, a detecting means for outputting a signal for the control valve in the open position, and a control unit for controlling the control valve,
When the control valve is switched to the open position, pilot pressure oil from the pilot pump is applied to the open / close valve via the control valve, and the open / close valve is switched from the open position, which is a neutral position, to the closed position. In the exhaust gas processing apparatus of a working machine capable of performing the specific processing in the exhaust gas processing means by increasing the output of the engine while maintaining the on-off valve in a closed position ,
An open position processing unit for performing processing for opening the on-off valve according to pilot pressure oil supplied from the pilot pump;
The open position processing unit is associated with the operation of the pilot pump, the lock valve maintained at a lock release position for supplying the pilot pressure oil from the pilot pump to the operation device, and the operation lever of the operation device. A pressure sensor for detecting the pressure of the pilot pressure oil supplied by the pressure sensor, and the control device for controlling the control valve to be kept in a closed position in response to detection of the pressure of the pilot pressure oil by the pressure sensor. An exhaust gas treatment device for a working machine.

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